// This class constructs the edge-expanded routing graph
#ifndef EDGE_BASED_GRAPH_FACTORY_HPP_
#define EDGE_BASED_GRAPH_FACTORY_HPP_
#include "extractor/compressed_edge_container.hpp"
#include "extractor/edge_based_edge.hpp"
#include "extractor/edge_based_node.hpp"
#include "extractor/extraction_turn.hpp"
#include "extractor/guidance/turn_analysis.hpp"
#include "extractor/guidance/turn_instruction.hpp"
#include "extractor/guidance/turn_lane_types.hpp"
#include "extractor/nbg_to_ebg.hpp"
#include "extractor/original_edge_data.hpp"
#include "extractor/profile_properties.hpp"
#include "extractor/query_node.hpp"
#include "extractor/restriction_map.hpp"
#include "util/deallocating_vector.hpp"
#include "util/guidance/bearing_class.hpp"
#include "util/guidance/entry_class.hpp"
#include "util/name_table.hpp"
#include "util/node_based_graph.hpp"
#include "util/packed_vector.hpp"
#include "util/typedefs.hpp"
#include "storage/io.hpp"
#include <algorithm>
#include <cstddef>
#include <cstdint>
#include <iosfwd>
#include <memory>
#include <queue>
#include <string>
#include <unordered_map>
#include <unordered_set>
#include <vector>
#include <boost/filesystem/fstream.hpp>
namespace osrm
{
namespace extractor
{
class ScriptingEnvironment;
namespace lookup
{
#pragma pack(push, 1)
struct TurnIndexBlock
{
OSMNodeID from_id;
OSMNodeID via_id;
OSMNodeID to_id;
};
#pragma pack(pop)
static_assert(std::is_trivial<TurnIndexBlock>::value, "TurnIndexBlock is not trivial");
static_assert(sizeof(TurnIndexBlock) == 24, "TurnIndexBlock is not packed correctly");
} // ns lookup
struct NodeBasedGraphToEdgeBasedGraphMappingWriter; // fwd. decl
class EdgeBasedGraphFactory
{
public:
EdgeBasedGraphFactory(const EdgeBasedGraphFactory &) = delete;
EdgeBasedGraphFactory &operator=(const EdgeBasedGraphFactory &) = delete;
explicit EdgeBasedGraphFactory(std::shared_ptr<util::NodeBasedDynamicGraph> node_based_graph,
CompressedEdgeContainer &compressed_edge_container,
const std::unordered_set<NodeID> &barrier_nodes,
const std::unordered_set<NodeID> &traffic_lights,
std::shared_ptr<const RestrictionMap> restriction_map,
const std::vector<util::Coordinate> &coordinates,
const util::PackedVector<OSMNodeID> &osm_node_ids,
ProfileProperties profile_properties,
const util::NameTable &name_table,
std::vector<std::uint32_t> &turn_lane_offsets,
std::vector<guidance::TurnLaneType::Mask> &turn_lane_masks,
guidance::LaneDescriptionMap &lane_description_map);
void Run(ScriptingEnvironment &scripting_environment,
const std::string &original_edge_data_filename,
const std::string &turn_lane_data_filename,
const std::string &turn_weight_penalties_filename,
const std::string &turn_duration_penalties_filename,
const std::string &turn_penalties_index_filename,
const std::string &cnbg_ebg_mapping_path);
// The following get access functions destroy the content in the factory
void GetEdgeBasedEdges(util::DeallocatingVector<EdgeBasedEdge> &edges);
void GetEdgeBasedNodes(std::vector<EdgeBasedNode> &nodes);
void GetStartPointMarkers(std::vector<bool> &node_is_startpoint);
void GetEdgeBasedNodeWeights(std::vector<EdgeWeight> &output_node_weights);
// These access functions don't destroy the content
const std::vector<BearingClassID> &GetBearingClassIds() const;
std::vector<BearingClassID> &GetBearingClassIds();
std::vector<util::guidance::BearingClass> GetBearingClasses() const;
std::vector<util::guidance::EntryClass> GetEntryClasses() const;
unsigned GetHighestEdgeID();
// Basic analysis of a turn (u --(e1)-- v --(e2)-- w)
// with known angle.
// Handles special cases like u-turns and roundabouts
// For basic turns, the turn based on the angle-classification is returned
guidance::TurnInstruction AnalyzeTurn(const NodeID u,
const EdgeID e1,
const NodeID v,
const EdgeID e2,
const NodeID w,
const double angle) const;
private:
using EdgeData = util::NodeBasedDynamicGraph::EdgeData;
//! maps index from m_edge_based_node_list to ture/false if the node is an entry point to the
//! graph
std::vector<bool> m_edge_based_node_is_startpoint;
//! node weights that indicate the length of the segment (node based) represented by the
//! edge-based node
std::vector<EdgeWeight> m_edge_based_node_weights;
//! list of edge based nodes (compressed segments)
std::vector<EdgeBasedNode> m_edge_based_node_list;
util::DeallocatingVector<EdgeBasedEdge> m_edge_based_edge_list;
EdgeID m_max_edge_id;
const std::vector<util::Coordinate> &m_coordinates;
const util::PackedVector<OSMNodeID> &m_osm_node_ids;
std::shared_ptr<util::NodeBasedDynamicGraph> m_node_based_graph;
std::shared_ptr<RestrictionMap const> m_restriction_map;
const std::unordered_set<NodeID> &m_barrier_nodes;
const std::unordered_set<NodeID> &m_traffic_lights;
CompressedEdgeContainer &m_compressed_edge_container;
ProfileProperties profile_properties;
const util::NameTable &name_table;
std::vector<std::uint32_t> &turn_lane_offsets;
std::vector<guidance::TurnLaneType::Mask> &turn_lane_masks;
guidance::LaneDescriptionMap &lane_description_map;
unsigned RenumberEdges();
std::vector<NBGToEBG> GenerateEdgeExpandedNodes();
void GenerateEdgeExpandedEdges(ScriptingEnvironment &scripting_environment,
const std::string &original_edge_data_filename,
const std::string &turn_lane_data_filename,
const std::string &turn_weight_penalties_filename,
const std::string &turn_duration_penalties_filename,
const std::string &turn_penalties_index_filename);
NBGToEBG InsertEdgeBasedNode(const NodeID u, const NodeID v);
std::size_t restricted_turns_counter;
std::size_t skipped_uturns_counter;
std::size_t skipped_barrier_turns_counter;
std::unordered_map<util::guidance::BearingClass, BearingClassID> bearing_class_hash;
std::vector<BearingClassID> bearing_class_by_node_based_node;
std::unordered_map<util::guidance::EntryClass, EntryClassID> entry_class_hash;
};
} // namespace extractor
} // namespace osrm
#endif /* EDGE_BASED_GRAPH_FACTORY_HPP_ */